Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: UMLS:C0406810 (NAME)
13,345 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Nitric oxide (NO) or endothelium-derived relaxing factor may play an important role in modulating pulmonary vascular resistance (PVR), although previous studies have produced conflicting results. Endogenous NO inhibition causes an increase in PVR in intact animals but not in saline-perfused isolated lungs. We hypothesized that blood is essential for NO to serve as a modulator of PVR. Therefore, the effects of endogenous NO inhibition (N omega-nitro-L-arginine methyl ester [L-NAME]) were determined in isolated rat lungs as related to the presence of different blood components under normoxic conditions and after 1 wk of hypoxia (fraction of inspired oxygen [FIO2] = 10%). Exogenously administered inhaled NO was evaluated in isolated lungs from normoxic and hypoxic rats. In normoxic rats, L-NAME (10-100 microM) caused a dose-dependent increase in PVR in whole (hematocrit [Hct] 40%) and diluted (Hct 12%) blood-perfused lungs. L-NAME (10-800 microM) had no effect in isolated lungs perfused with a modified salt solution of equal viscosity to blood either alone, or containing plasma (50%) or free oxyhemoglobin (10 microM). In whole blood perfused lungs, L-NAME (100 microM) increased PVR more in hypoxic versus normoxic isolated lungs (141% vs 100%). Inhaled NO decreased PVR in isolated lungs from hypoxic rats and partially reversed the effects of L-NAME, but had no effect in normoxic lungs. In conclusion, endogenous and inhaled NO modulate PVR in isolated rat lungs and this role is increased by prolonged hypoxia. The response to inhibition of endogenous NO is dependent on the presence of red blood cells and is independent of the changes in viscosity or the presence of oxyhemoglobin or plasma.
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PMID:Nitric oxide modulation of pulmonary vascular resistance is red blood cell dependent in isolated rat lungs. 894 88

1. The aims of this study were to compare in the rat isolated perfused lung preparation, the antagonist effects of iloprost, a stable analogue of prostacyclin, and prostaglandin E1 (PGE1) on the hypoxic pulmonary pressure response, and to investigate the possible involvement of KATP and KCa channels and of EDRF (NO) in the effects. In addition, iloprost and PGE1 effects were compared to those of adenosine and forskolin. 2. Isolated lungs from male Wistar rats (260-320 g) were ventilated with 21% O2 + 5% CO2 + 74% N2 (normoxia) or 5% CO2 + 95% N2 (hypoxia) and perfused with a salt solution supplemented with ficoll. Glibenclamide (1 microM), charybdotoxin (0.1 microM), NG-nitro-L-arginine methyl ester (L-NAME, 100 microM) were used to block KATP, KCa channels and NO synthesis, respectively. 3. Iloprost, PGE1, adenosine and forskolin caused relaxation during the hypoxic pressure response. The order of potency was: iloprost > PGE1 = forskolin > adenosine. EC50 values were 1.91 +/- 0.52 10(-9) M, 3.31 +/- 0.58 10(-7) M, 3.24 +/- 0.78 10(-7) M and 7.70 +/- 1.68 10(-5) M, respectively. Glibenclamide, charybdotoxin and L-NAME inhibited partially the relaxant effects of iloprost and forskolin but not those of PGE1. 4. It is concluded that in the rat isolated lung preparation, iloprost and forskolin but not PGE1 dilate pulmonary vessels partly through KATP channels, KCa and nitric oxide release. Furthermore our results suggest that the role of cycli AMP in these effects is not unequivocal.
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PMID:Role of potassium channels and nitric oxide in the effects of iloprost and prostaglandin E1 on hypoxic vasoconstriction in the isolated perfused lung of the rat. 903 43

We have recently shown an enhanced expression of inhibitory guanine nucleotide regulatory proteins Gi alpha-2 and Gi alpha-3 and their respective mRNA in hearts from DOCA-salt hypertensive rats. However, it is not known whether these changes are due to the expressed hypertrophy or hypertension. The present studies were therefore undertaken to investigate this possibility. Hypertension in Sprague-Dawley rats was induced by the oral administration of the arginine analog N(omega)-nitro-L-arginine methyl ester (L-NAME) in their drinking tap water for a period of 4 weeks. The control rats were given plain tap water only. L-NAME-treated rats showed an enhanced blood pressure (190 +/- 9.23 mm Hg; n = 20) compared to control rats (121 +/- 6.3 mm Hg; n = 20). However, heart to body weight ratio was not different in the two groups. Guanosine 5'-o-(3-thiotriphosphate) (GTPgammaS) stimulated adenylyl cyclase activity in heart membranes from both groups, but the extent of stimulation was significantly decreased in L-NAME-treated rats. Similarly, stimulations exerted by isoproterenol, glucagon, NaF, and forskolin on adenylyl cyclase were also diminished in L-NAME-treated rats. On the other hand, the inhibitory effect of low concentrations of GTPgammaS on forskolin-stimulated enzyme activity was significantly enhanced. The extent of oxotremorine-mediated inhibition of adenylyl cyclase was unaltered in both control and L-NAME-induced hypertensive rats. The levels of Gi alpha-2 and Gi alpha-3, but not of stimulatory guanine nucleotide regulatory protein Gs alpha, as determined by immunoblotting, were significantly augmented in L-NAME-treated rats. Northern blot studies revealed a significant increase in Gi alpha-2 and Gi alpha-3 mRNA with no changes in Gs alpha mRNA. These results suggest that the altered expression of Gi alpha proteins and adenylyl cyclase activity in L-NAME-treated rats may be attributed to hypertension and not to hypertrophy.
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PMID:Nitric oxide synthase inhibition by N(omega)-nitro-L-arginine methyl ester modulates G-protein expression and adenylyl cyclase activity in rat heart. 912 16

The present study was aimed to investigate the regulatory mechanisms of BNP release. Effects of acute and chronic perturbations in body fluid balance, changes in BP, and regulatory roles of NO and endothelin systems on BNP release were examined in rats. Although acute extracellular volume expansion did not have significant effects on plasma BNP, prolonged high-salt intake increased plasma BNP levels. Plasma BNP levels were also higher in 2K1C rats compared with the control. Although infusion of L-NAME increased the plasma BNP in control, it did not further affect the plasma BNP in rats with high-salt intake. Although L-arginine (20 mg.kg-1 per min) per se did not have significant effects on plasma BNP, it blocked the stimulatory effect of L-NAME (200 micrograms.kg-1 per min). Plasma BNP was severalfold increased following a single injection of endothelin (0.3 micrograms/kg) in normal and high-salt intake groups, the magnitude of which was not significantly affected by the high-salt intake. Although indomethacin did not have significant effects on plasma BNP in normal rats, it blocked the stimulatory effect of 2K1C hypertension. It is concluded that BNP is regulated by chronic changes in body fluid balance and blood pressure. It is also suggested that endothelin and NO systems may directly regulate the secretion of BNP in vivo. An endogenous prostaglandin synthesis may be involved in the stimulated release of BNP in hypertension.
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PMID:Effects of altered body fluid balance and high blood pressure on the plasma brain natriuretic peptide in rats. 917 16

Evidence supports the involvement of nitric oxide (NO) in ovarian physiology. The present study was undertaken to investigate the role of the NO/NO synthase (NOS) systems in ovulation, oocyte maturation, ovarian steroidogenesis, and PG production using in vitro perfused rabbit ovaries. The addition of the NOS inhibitors, aminoguanidine hemisulfate salt (AG) and N-omega-nitro-L-arginine methyl ester (L-NAME), to the perfusate inhibited the ovulation induced by hCG in a dose-dependent manner, whereas D-NAME had no significant effect. Neither AG nor L-NAME affected the hCG-induced meiotic maturation of the ovulated ova. The exogenous administration of the NO generator, sodium nitroprusside (NP), induced follicle rupture in the absence of gonadotropin, but did not induce oocyte maturation. Inhibition of endogenous NOS by AG and L-NAME resulted in a significant elevation in the production of estradiol (E2), but not of progesterone, stimulated by hCG. The concomitant administration of NP significantly reduced the AG-stimulated production of E2 by ovaries perfused in the presence of hCG, which suggests that NO down-regulates ovarian E2 synthesis. Ovarian production of PGE2 and PGF2alpha in response to hCG was significantly blocked by L-NAME, and exogenous administration of NP stimulated the production of PGs in the absence of gonadotropin. Significant correlations were observed between the ovulatory efficiencies and the production of PGs by rabbit ovaries perfused with or without L-NAME. In conclusion, the ovarian NO/NOS system is involved in follicle rupture during the ovulatory process. NO may induce follicle rupture in rabbit ovaries at least in part by the stimulation of PG production.
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PMID:Effects of nitric oxide on ovulation and ovarian steroidogenesis and prostaglandin production in the rabbit. 927 46

The cardiovascular effects of chronic inhibition of nitric oxide synthesis and dietary salt were studied in 9-wk-old spontaneously hypertensive rats (SHR). N omega-nitro-L-arginine methyl ester (L-NAME, 0.025% in food, about 20 mg/kg/d) was given to rats receiving diets containing low, moderate, and high salt levels (NaCl 0.2%, 1.1%, and 6.0% of the dry weight of the chow) for 3 wk, L-NAME increased systolic blood pressure by 50 to 60 mmHg in all treated groups, as compared with an average rise of 10 to 20 mmHg in the control SHR. The high-salt diet did not further increase blood pressure. L-NAME also induced cardiac and renal hypertrophy, and these changes were aggravated by the high-salt diet. In addition, 19 of the 30 rats treated with L-NAME suffered strokes and all of them had several myocardial infarctions and renal damage, while the rats not treated with L-NAME had no evidence of stroke or myocardial or renal injury. Responses of mesenteric arterial rings in vitro were studied at the end of the experiment. The vascular contractile responses to noradrenaline were increased, and the relaxation responses to acetylcholine were inhibited in the L-NAME treated groups. In addition, the high-salt diet alone tended to inhibit the response to acetylcholine. Plasma renin activity was markedly increased by L-NAME treatment and decreased by the high-salt diet. The 24-h urine protein excretion was increased both by the L-NAME treatment and by the high-salt diet. The combination of L-NAME and the high-salt diet markedly raised the serum creatinine concentration. Our findings show that the coronary and renal functions are particularly vulnerable in SHR during impaired nitric oxide synthesis, and that the end-organ damage is worsened by an increased intake of dietary salt. We suggest that dysfunction of the endothelium is the primary cause of the effects observed in this study.
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PMID:Cardiovascular effects of chronic inhibition of nitric oxide synthesis and dietary salt in spontaneously hypertensive rats. 932 99

The role of nitric oxide in hypoxic fetoplacental vasoconstriction (HFPV) was investigated using dually perfused human placental cotyledons. Standard medium (Earle's salt solution with added dextran and L-arginine) was equilibrated with 95 per cent O2 and 5 per cent CO2 (maternal side) and 94 per cent N2 and 6 per cent CO2 (fetal side). Part 1 consisted of perfusion for 1 h, then maternal perfusate equilibrated with a 95 per cent N2 and 5 per cent CO2 for 20 min (hypoxia), and then the original perfusion conditions resumed for 40 min. In part 2, this sequence was repeated with standard medium alone (n = 6), or with added N-nitro-L-arginine methyl ester (L-NAME) (n = 6), or L-NAME and nitroglycerin (n = 6). When standard medium was used throughout, basal fetal perfusion pressure (30 +/- 2 mmHg) and the hypoxia-induced increase in perfusion pressure (18 +/- 1 mmHg) did not change significantly between parts 1 and 2. L-NAME increased basal perfusion pressure from 33 +/- 3 to 56 +/- 2 mmHg whereas perfusion pressure remained unchanged with L-NAME and nitroglycerin or nitroglycerin alone. The hypoxic vasoconstriction observed during part 1 in the L-NAME (14 +/- 3 mmHg) and the L-NAME with nitroglycerin groups (18 +/- 2 mmHg) was abolished during part 2 (to - 4 +/- 1 and 0.4 +/- 0.5 mmHg, respectively) whereas nitroglycerin alone significantly blunted the response (21 +/- 3 to 6 +/- 1 mmHg). Results suggest that a reduction in basal NO release mediates hypoxic fetoplacental vasoconstriction in the perfused human placental cotyledon in vitro.
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PMID:Role of the L-arginine nitric oxide pathway in hypoxic fetoplacental vasoconstriction. 936 97

Cessation of blood flow during ischemia will decrease both distending and shear forces exerted on endothelium and may worsen ischemic lung injury by decreasing production of nitric oxide (NO), which influences vascular barrier function. We hypothesized that increased intravascular pressure (Piv) during ventilated ischemia might maintain NO production by increasing endothelial stretch or shear forces, thereby attenuating ischemic lung injury. Injury was assessed by measuring the filtration coefficient (Kf) and the osmotic reflection coefficient for albumin (sigmaalb) after 3 h of ventilated (95% O2-5% CO2; expiratory pressure 3 mmHg) ischemia. Lungs were flushed with physiological salt solution, and then Piv was adjusted to achieve High Piv (mean 6.7 +/- 0.4 mmHg, n = 15) or Low Piv (mean 0.83 +/- 0.4 mmHg, n = 10). NG-nitro-L-arginine methyl ester (L-NAME; 10(-5) M, n = 10), NG-nitro-D-arginine methyl ester (D-NAME; 10(-5) M, n = 11), or L-NAME (10(-5) M)+L-arginine (5 x 10(-4) M, n = 6) was added at the start of ischemia in three additional groups of lungs with High Piv. High Piv attenuated ischemic injury compared with Low Piv (sigmaalb 0.67 +/- 0.04 vs. 0. 35 +/- 0.04, P < 0.05). The protective effect of High Piv was abolished by L-NAME (sigmaalb 0.37 +/- 0.04, P < 0.05) but not by D-NAME (sigmaalb 0.63 +/- 0.07). The effects of L-NAME were overcome by an excess of L-arginine (sigmaalb 0.56 +/- 0.05, P < 0.05). Kf did not differ significantly among groups. These results suggest that Piv modulates ischemia-induced barrier dysfunction in the lung, and these effects may be mediated by NO.
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PMID:Protective effects of intravascular pressure and nitric oxide in ischemic lung injury. 948 Sep 36

It has been proposed repeatedly that essential hypertension as well as secondary hypertension is associated in a causative manner with endothelial dysfunction in the resistance vessels. Endothelial damage and dysfunction may be expected to attenuate the endogenous vasodilator mechanism of EDRF (nitric oxide) and hence cause a rise in blood pressure. This attractive hypothesis, put forward a few years ago, is subject to considerable debate at present. In the present survey the arguments in favour and against this hypothesis are critically discussed. The following arguments support the causative association between endothelial dysfunction: the hypertensive effect of NO-synthase blockade by L-NAME and related agents; the antihypertensive effect of L-arginine in salt-loaded Dahl rats; the impaired vasodilator effect in the forearm vascular bed of hypertensives; diminished NO-synthesis in hypertensives. However, several findings speak against the association between hypertensive disease and endothelial dysfunction. For instance: no clear demonstration of impaired endothelial function in isolated vessels of hypertensive patients and animals; studies in the human forearm vascular bed where endothelial function appears to be fully intact in hypertensives. Attempts are made to explain the discrepancies between the various findings. So far the association between endothelial dysfunction and hypertension appears to be an uncertain one.
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PMID:Endothelial dysfunction in hypertension. A critical evaluation. 949 30

This study was performed to evaluate the effect of L-arginine (L-Arg) on the prevention of chronic cyclosporine (CsA) nephrotoxicity in rats. Rats pair-fed a low-salt diet (0.05%) were given CsA (15 mg/kg/day s.c.), CsA and L-Arg (L-Arg group, 1.25 g/l water), CsA and N-nitro-L-arginine methyl ester (L-NAME group, 70 mg/l water) or vehicle. After 28 days, the L-Arg group had a higher glomerular filtration rate compared to the CsA (0.42 +/- 0.05 vs. 0.31 +/- 0.06 ml/min/100 g, p < 0.05) and the L-NAME groups (vs. 0.19 +/- 0.04 ml/min/100 g, p < 0.05) and a significantly lower serum creatinine level compared to the CsA (0.70 +/- 0.06 vs. 0.92 +/- 0.12 mg/dl, p < 0.05) and the L-NAME groups (vs. 1.21 +/- 0.17 mg/dl, p < 0.05). The L-Arg group had less fibrosis, tubular injury (TI), and arteriolopathy than the CsA (fibrosis 0.39 +/- 0.14 vs. 0.74 +/- 0.15; TI 1.3 +/- 0.3 vs. 2.0 +/- 0.1; arteriolopathy 33 +/- 7 vs. 48 +/- 17, p < 0.05, respectively) and the L-NAME groups (fibrosis vs. 1.67 +/- 0.32, TI vs. 2.6 +/- 0.3, arteriolopathy vs. 63 +/- 10, p < 0.05, respectively). Plasma renin activity in the L-Arg group was less than in the CsA (18 +/- 2 vs. 23 +/- 3 ng Ang I/ml/h, p < 0.05) and the L-NAME groups (vs. 30 +/- 3 ng Ang I/ml/h, p < 0.05). Nitric oxide production in L-Arg group was higher than in the CsA (24.2 +/- 1.7 vs. 11.1 +/- 1.5 mumol/24 h, p < 0.05) and the L-NAME groups (vs. 8.4 +/- 1.0 mumol/24 h, p < 0.05). In conclusion, the nitric oxide pathway is associated with the pathogenesis of chronic CsA nephrotoxicity, and exogenous L-Arg supplementation is effective in reducing chronic CsA nephrotoxicity in rats.
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PMID:Oral supplementation of L-arginine prevents chronic cyclosporine nephrotoxicity in rats. 952 73


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